How can I Plot eigenvectors of a graph on the graph as bars coming out of vertices?

6 views (last 30 days)
Defne Odabasi
Defne Odabasi on 28 Feb 2024
Commented: Matt J on 29 Feb 2024
After finding the eigenvalue decomposition of Laplacian matrix, I found the Fourier basis and now I want to plot some of the basis vectors on the graph. How can I obtain the plot as follows:
G = graph(weighted_adjacency);
LWidths = G.Edges.Weight/max(G.Edges.Weight);
figure;
plot(G,'XData',data(:,1),'YData' ,data(:,2),'LineWidth',LWidths);
xlabel('x');
ylabel('y');
title('Weighted Graph')
%Laplacian Matrix
%L = D - M
%Degree Matrix
degree_matrix = diag(sum(weighted_adjacency,2));
laplacian_matrix = degree_matrix - weighted_adjacency;
%Computing the eigenvalues and eigenvectors
[V, lambda] = eig(laplacian_matrix);
selected_u = [1 2 3 10 50];
fourier_basis_vectors = V(:, selected_u);
for i = 1:numel(selected_u)
basis_vector = fourier_basis_vectors(: ,i);
figure;
plot(G,'XData',data(:,1),'YData' ,data(:,2));
end

Sign in to answer this question.

Accepted Answer

William Rose
William Rose on 28 Feb 2024
@Defne Odabasi,
You can plot arrows representing a 2D eigenvectors, at specific locations, with quiver(X,Y,U,V), where X and Y represnt the locaiotns of the bases of the arrows, and U,V are the x- and y-lengths of the arrows. The lengths are automatically scalled to avoifd overlap. You can control the scaling, if you do not like the default.
If you attach weighted_adjacency, others may be able to run your code.

More Answers (0)

Categories

Find more on Graph and Network Algorithms in Help Center and File Exchange

Tags

Community Treasure Hunt

Find the treasures in MATLAB Central and discover how the community can help you!

Start Hunting!